Display Response Times

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Display response times show how fast the screen is able to change from one color to the next. Slow response times can lead to afterimages and can cause moving objects to appear blurry (ghosting). Gamers of fast-paced 3D titles should pay special attention to fast response times.

↔ Response Time Black to White

24.8 ms ... rise ↗ and fall ↘ combined

↗ 6 ms rise

↘ 28.8 ms fall

The screen shows good response rates in our tests, but may be too slow for competitive gamers.In comparison, all tested devices range from 0.8 (minimum) to 240 (maximum) ms. » 34 % of all devices are better.This means that the measured response time is similar to the average of all tested devices (26.9 ms).

↔ Response Time 50% Grey to 80% Grey

31.6 ms ... rise ↗ and fall ↘ combined

↗ 13.6 ms rise

↘ 18 ms fall

The screen shows slow response rates in our tests and will be unsatisfactory for gamers.In comparison, all tested devices range from 0.9 (minimum) to 636 (maximum) ms. » 17 % of all devices are better.This means that the measured response time is better than the average of all tested devices (43 ms).

Screen Flickering / PWM (Pulse-Width Modulation)

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To dim the screen, some notebooks will simply cycle the backlight on and off in rapid succession - a method called Pulse Width Modulation (PWM) . This cycling frequency should ideally be undetectable to the human eye. If said frequency is too low, users with sensitive eyes may experience strain or headaches or even notice the flickering altogether.

Screen flickering / PWM detected

69.4 Hz

The display backlight flickers at 69.4 Hz (Likely utilizing PWM) .

The frequency of 69.4 Hz is very low, so the flickering may cause eyestrain and headaches after extended use.

In comparison: 58 % of all tested devices do not use PWM to dim the display. If PWM was detected, an average of 5559 (minimum: 43 - maximum: 142900) Hz was measured.